UPMC Univ Paris 06, UMR_S 872, Laboratoire de Génomique, Physiologie et Physiopathologie Rénales, Paris, France.
Hum Mutat. 2011 Apr;32(4):476-83. doi: 10.1002/humu.21467.
Mutations in the electrogenic Cl(-)/H(+) exchanger ClC-5 gene CLCN5 are frequently associated with Dent disease, an X-linked recessive disorder affecting the proximal tubules. Here, we investigate the consequences in Xenopus laevis oocytes and in HEK293 cells of nine previously reported, pathogenic, missense mutations of ClC-5, most of them which are located in regions forming the subunit interface. Two mutants trafficked normally to the cell surface and to early endosomes, and displayed complex glycosylation at the cell surface like wild-type ClC-5, but exhibited reduced currents. Three mutants displayed improper N-glycosylation, and were nonfunctional due to being retained and degraded at the endoplasmic reticulum. Functional characterization of four mutants allowed us to identify a novel mechanism leading to ClC-5 dysfunction in Dent disease. We report that these mutant proteins were delayed in their processing, and that the stability of their complex glycosylated form was reduced, causing lower cell surface expression. The early endosome distribution of these mutants was normal. Half of these mutants displayed reduced currents, whereas the other half showed abolished currents. Our study revealed distinct cellular mechanisms accounting for ClC-5 loss of function in Dent disease.
CLC-5 基因突变与 Dent 病有关,Dent 病是一种影响近端肾小管的 X 连锁隐性遗传病。本研究在非洲爪蟾卵母细胞和 HEK293 细胞中,检测了先前报道的 9 种致病性错义突变的 ClC-5 的后果,这些突变大多位于形成亚基界面的区域。两种突变体能够正常转运到细胞表面和早期内体,并在细胞表面表现出与野生型 ClC-5 相似的复杂糖基化,但电流减少。三种突变体表现出异常的 N-糖基化,由于在内质网中滞留和降解而失去功能。对四个突变体的功能特征进行了分析,确定了 Dent 病中导致 ClC-5 功能障碍的新机制。报告称,这些突变蛋白的加工过程被延迟,其复杂糖基化形式的稳定性降低,导致细胞表面表达减少。这些突变体的早期内体分布正常。其中一半的突变体显示出电流减少,而另一半则完全没有电流。本研究揭示了 Dent 病中 ClC-5 功能丧失的不同细胞机制。
